Technique for repairing teeth

ABSTRACT

A double matrix band and technique for using the same is utilized in tooth repair to minimize interproximal spacing. The first portion of the matrix band is wrapped around the tooth adjacent to that being repaired, and the second portion of the band is then wrapped around the tooth to be repaired. Light permeable materials may be used for the matrix bands, thereby allowing tooth repair with light curable materials.

TECHNICAL FIELD

This invention is directed to dentistry, and more particularly to animproved technique of repairing large cavities in teeth.

BACKGROUND OF THE INVENTION

Those in the dentistry art have attempted for many years to deviseimproved techniques for repair of teeth, and specifically, for therestoration of large cavities and other damage to teeth. The mostconventional materials include a silver mercury compound which is packedinto the cavity and allowed to harden. Excess portions are then removedso that the tooth is substantially restored to its natural shape andform.

While the silver is somewhat unsightly, it is the mercury which is moreof a concern. Mercury is a poisonous material and many individuals donot like the idea of having it used in their Mouth. Accordingly, therehas recently been a tendency to use other types of materials to repairteeth.

One set of such alternative materials are light curable resins. Thesematerials have the physical property that they harden and bond to theteeth when exposed to a predetermined frequency of light. The frequencyis typically that characteristic of ultraviolet. Typically, thesematerials are much more putty-like than the mercury silver materialswhich have substantially more body. These light curable materials areoften applied using matrix bands to assist in the formation and shapingof the final restoration. The matrix bands provide a fixed volume towhich the material is confined.

With reference to FIG. 1, shown therein is a top view of a damaged tooth101 surrounded by two substantially undamaged teeth 102 and 103. It canbe appreciated from FIG. 1 that the damage 104 in tooth 101 needs to befilled in with the silver mercury compound, the resin, or othermaterial, in order to repair the tooth.

FIG. 2 shows the teeth of FIG. 1 with a matrix band 201 surroundingdamaged tooth 101. In accordance with prior art techniques, the matrixband 201 is wrapped around tooth 101 and tightened by use of apparatus202, commonly known as a matrix band and retainer. One commonly usedtype of such arrangement is known as a tofflemire retainer. The matrixband 201 is often constructed of thin metal, but may even be constructedof a thin light transparent film in case a light curable material, suchas that previously discussed, is utilized to repair the damage 104.

The problem in the art is that the light permeable material is similarto a film, and is extremely thin and flimsy, much more so than themetal. The light permeable film wraps quite tightly around the damagedtooth, and thus leaves a large gap between, for example, teeth 101 and103. This gap 207 is clearly shown in FIG. 2.

Ideally, it would be desirable for the restored tooth to be anatomicallysimilar to the original tooth. This means that adjacent teeth shouldcontact each other in the upper one-third portion of the interproximalarea, and not contact one another along the remainder thereof. This isshown in FIG. 11.

FIG. 3 shows a similar arrangement to that of FIG. 2 except that thematrix band 301 is now constructed of a thin metallic material. Sincethe metal is much thicker and less malleable, the matrix band does notfully conform to the shape of tooth 101, but rather, is somewhatseparated from tooth 101, at the sides thereof. As a result, the matrixband abuts, or nearly abuts, adjacent teeth 102 and 103 as shown.Indeed, the difference between FIGS. 2 and 3 can best be appreciated byviewing the interproximal spacing in both figures between teeth 102 and101, and between teeth 103 and 101. It can be appreciated from FIG. 2that filling in the bonding material to damaged portion 104 in FIG. 2will result in large interproximal spacing between teeth 101 and 103. Onthe other hand, filling the bonding material into damaged portion 104 inFIG. 3 will result in much less interproximal spacing. However, sincethe matrix band of FIG. 3 is metallic, no light curable material can beused. The matrix band will not allow the light to permeate through tothe curable material.

Those of ordinary skill in this art appreciate the desirability ofminimizing interproximal spacing along the top portions of the teeth.For example, large interproximal spacing results in food debris beingtrapped between the teeth after repair. Other problems includeperiodontal disease, potential tooth decay, and orthodontic shifting,even resulting in a potential change of the patient's bite.

However, in view of the above discussion, it can also be appreciatedthat it is difficult to minimize interproximal spacing, in any part ofthe interproximal area, if a light curable material is used for toothrepair. This problem is due to the fact that the thin flimsy film-likematerial which is used to construct matrix bands for use in connectionwith light curable material conforms to the tooth being repaired, asshown in FIG. 2.

In view of the above, it can be appreciated that there exists need inthe art for a better technique of allowing light curable materials to beutilized in the repair of damaged teeth to obtain anatomically correctrestorations.

SUMMARY OF THE INVENTION

The above and other problems of the prior art are overcome in accordancewith the present invention which relates to a technique of permittinglight curable bondable materials to be utilized in the repair of teeth,while simultaneously permitting an anatomically correct restorationwhich results in minimal interproximal spacing along a portion thereofand slightly larger interproximal spacing along the remaining lengththereof. In accordance with the inventive technique, two light permeablematrix bands are utilized, the bands being joined at a predeterminedsmall portion along the length thereof. The joined portion is placed inthe interproximal area and one of the two matrix bands is anchored to atooth adjacent to the tooth to be repaired. The second matrix band isthen anchored around the tooth to be repaired. The resulting set ofmatrix bands leaves minimal interproximal spacing, an least near the topof the teeth, after the tooth is repaired yet allows use of lightpermeable materials in the construction of these bands.

Enhancements to the technique include the use of spacers impregnatedwith an astringent, and a novel double tofflemire remainer fortightening both matrix bands. The spacers provide slight separation nearthe gum line, yet do not affect the minimal interproximal spacing nearthe top of the teeth, thus resulting in an anatomically correctrestoration. The double tofflemire retainer provides for ease of use.Each of the enhancements can be used to facilitate use of the improvedtechnique.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows three consecutive teeth, where a center one thereof hasbeen damaged;

FIG. 2 shows prior art use of a technique for repairing such teeth;

FIG. 3 shows an additional prior art technique for repairing of teeth;

FIG. 4 shows an exemplary embodiment of applicant's novel technique forrepairing the damaged tooth structure shown in FIG. 1;

FIG. 5 is an example of a double matrix band in accordance with thepresent invention, shown partially installed;

FIG. 6 is a more fully installed double matrix band in accordance withthe present invention;

FIG. 7 is a set of wedges, preferably impregnated with an astringent;

FIG. 8 shows the spacers of FIG. 7 as installed between teeth;

FIG. 9 is a side view of two teeth wrapped by the inventive doublematrix band and separated by two wedges;

FIG. 10 shows a novel tightening apparatus for use with the inventivetechnique; and

FIG. 11 shows anatomically correct interproximal spacing.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

FIG. 4 shows a side view of applicant's double matrix band 402 connectedalong an exemplary length 403. The connection along length 403 may beaccomplished utilizing any acceptable glue, or alternatively, the entiredouble matrix band 402 may be molded from the same material, therebyresulting in section 403 simply being one single piece. As describedmore fully later herein and with respect to FIG. 11, connection point403 should preferably not run the entire width of the matrix bands 404and 406.

The length of sides 404 and 406 may be the same or different from eachother, and a typical such length might be approximately two inches. Theconnection point 403 should be approximately one-quarter length from theend of each single matrix band 404 and 406. This leaves one half inch onone side of the connection, and one and one half inches on the otherside thereof.

FIG. 5 shows the teeth 101 through 103, with the interproximal spacing501 slightly exaggerated for explanation purposes. In operation, singleband 406 is wrapped about undamaged tooth 103 as shown. The single band406 is tightened using, for example, a tofflemire retainer 202. It isnoted that the wrapping and tightening of matrix band 406 may beaccomplished utilizing means other than a tofflemire retainer, such asthat described in U.S. Pat. No. 4,553,937 to Ropers. In any event, asshown in FIG. 5, the wrapping and tightening of band 406 about tooth 103is accomplished prior to the wrapping and tightening of matrix band 404about damaged tooth 101.

FIG. 6 shows the same three teeth 101 through 103, where theinterproximal spacing 501 between teeth 101 and 103 has again beenexaggerated. An additional tofflemire retainer 202 is connected tomatrix band 404 for tightening thereof. It will be noted however, thatas matrix band 404 is tightened about damaged tooth 101, theinterproximal spacing 501 remains within the matrix band which will befilled with the repaired material. Accordingly, when one compares FIGS.2 and 6, it is noted that the light curable material in FIG. 6 willextend out to tooth 103, thereby minimizing interproximal spacing. InFIG. 2, the light curing material will not extend to tooth 103, and alarge interproximal spacing between teeth 101 and 103 will result aftertooth repair. Thus, FIG. 6 provides a technique for allowing the matrixbands to be made of flimsy light permeable material, while stillminimizing interproximal spacing.

In essence, matrix band 406 is utilized as an anchor to pull matrix band404 away from the surface of the tooth 101, thus including theinterproximal spacing 501 in the volume defined by matrix band 404. Suchpulling action keeps the matrix band from tightly conforming to thetooth to be repaired.

The described technique utilizes a tooth next to the tooth beingrepaired in order to hold the matrix band 404 away from the area to berepaired. Of course, it is possible to utilize still a third matrix bandand retainer about tooth 102 in order to minimize the interproximalspacing between teeth 101 and 102. Additionally, the double matrix band402 may be intentionally fabricated thinner along the lengths 403 thenalong the remainder of the length, thereby further minimizinginterproximal spacing.

FIG. 7 shows two wedged shaped members 702 and 703 which may be utilizedin conjunction with the invention in order to further minimize theinterproximal spacing which results after tooth repair. As shown in FIG.8, the two wedge members 702 and 703 are wedged between teeth 101 and103 to thereby further open up a gap between these teeth before theprevious inventive technique is applied. The wedges in FIG. 7, whenplaced between the teeth near the gum line, assist in making theinterproximal space near the gum line slightly larger than near the topof the teeth. The use of two wedges results in a more anatomicallycorrect structure as can be seen from FIG. 8. Thereafter, when thewedges are removed, the teeth spring back, further minimizinginterproximal spacing.

FIG. 9 shows how the wedges may be utilized between the double matrixband 402 and the patient's gum line 901. The double matrix band 402 isnot connected along its entire width, but rather, only along a smallportion 902 thereof. The wedging members 702 and 703 are wedged betweenthe matrix bands 404 and 406, near the gum line 901. To accommodatethese wedging members, the matrix band 404 and 406 are not connectedbelow portion 902.

An additional enhancement is achieved by noting that the properties ofmany light curable materials are such that curing is inhibited if thematerial comes into contact with blood. It is therefore optimallydesirable to impregnate the wooden wedging members 702 and 703 with asuitable astringent, so that in the event that the gum is irritated andbleeds, clotting will occur quickly.

FIG. 10 shows a tightening apparatus for use with the inventivetechnique. The apparatus of FIG. 10 is quite similar to that commonlytermed a tofflemire retainer, with the exception there are twoindependent matrix bands 1006 and 1007, and two independent tighteningknobs 1002 and 1003.

For explanation purposes herein, we term the apparatus of FIG. 10 adouble tofflemire retainer. The double tofflemire retainer 1001comprises a body 1014, and first and second tightening knobs 1002 and1003 respectively. The tightening knob 1002 is connected to a threadedshaft 1005, while the lower tightening knob 1003 is connected to anouter shaft 1004. The tightening knobs and shafts are arranged, as shownin FIG. 10, such that they can be turned independently of one another.

The threads on each shaft 1004 and 1005 engage a separate one ofgrasping members 1008 and 1009. Each of the grasping members 1008 and1009 is connected, as shown, to a separate one of matrix bands 1006 and1007. The matrix bands are threaded through openings 1010 and 1011, alsoas clearly indicated in the figure.

In operation, one of matrix bands 1006 to 1007 is wrapped about a toothadjacent to a tooth to be repaired, and the other of the matrix bands1006 and 1007 is wrapped about the tooth to be repaired. The tighteningknob 1002 or 1003 which is connected to the appropriate matrix bandcorresponding to the tooth adjacent to that being repaired is firsttightened and the other knob is then tightened so that the arrangementof FIG. 6 results.

While the above describes the preferred embodiment of the invention, itwill be apparent to those of ordinary skill in the art that variousother modifications and/or additions may be constructed withoutviolating the spirit or scope of this invention. The above and otherembodiments are intended to be covered by the following claims.

What is claimed is:
 1. A method of repairing tooth damage comprising thesteps of:a) placing a double matrix band including two single matrixbands in an interproximal spacing between a tooth to be repaired and anadjacent tooth said two single matrix bands being connected to eachother in the interproximal spacing; b) tightening a first single matrixband about said adjacent tooth; and c) tightening a second single matrixband about said tooth to be repaired.
 2. A method of claim 1 whereinsaid step of tightening comprises the step of utilizing a tofflemireretainer.
 3. A method of claim 1 further comprising the step ofinserting two wedging members in said interproximal spacing.
 4. Themethod of claim 3 wherein said wedging members are impregnated with anastringent.
 5. The method of claim 1 wherein step (b) is performed priorto step (c).
 6. Apparatus for tightening a double matrix band about atooth to be repaired and an abutting tooth, said apparatus comprising;a)a body; b) a double matrix band comprising two matrix bands, said matrixbands each having length and being connected to each other along aportion of said length each of said matrix bands extending through abore in said body; and c) means attached to said body for positioningsaid connected portion interproximally and for independently tighteningeach of said matrix bands of said double matrix band.
 7. Apparatus ofclaim 6 wherein said matrix bands have a width and are connected alongonly a portion of said width.
 8. A double matrix band apparatus forrepair of teeth comprising:a) two single matrix bands constructed oflight permeable material, connected along a portion of the lengththereof, and b) means for positioning the portion connected into aninterproximal spacing, and for tightening said matrix bands around saidteeth.
 9. Apparatus for repair of teeth comprising:a) two matrix bands,the matrix bands being connected at a portion along the length thereof;and b) means connected to each matrix band for independently tighteningeach of said matrix bands about a separate tooth.
 10. Apparatus of claim9 wherein said means for tightening comprises two concentricallyarranged knobs.
 11. A method for repairing a tooth comprising the stepsof:a) placing a first matrix band around a tooth to be repaired; b)placing a second matrix band around a tooth which is not to be repairedand which is adjacent to said tooth to be repaired; and c) tighteningsaid second matrix band prior to tightening said first matrix band. 12.The method of claim 11 wherein said first and second matrix bands areconnected interproximally.